A cellular automaton model for tumour growth in inhomogeneous environment

Logistic proliferation of cells in scratch assays is delayed, Lattice-free models of directed cell motility, Competing species system as a qualitative model of radiation therapy, Vascular remodelling of an arterio-venous blood vessel network during solid tumour growth, The contribution of age structure to cell population responses to targeted therapeutics, A computational model of intussusceptive microvascular growth and remodeling, Conservation of some dynamical properties for operations on cellular automata, Modelling the effects of cell-cycle heterogeneity on the response of a solid tumour to chemotherapy: biological insights from a hybrid multiscale cellular automaton model, Stochastic multi-scale models of competition within heterogeneous cellular populations: simulation methods and mean-field analysis, An optimal control approach for the treatment of solid tumors with angiogenesis inhibitors, A bi-parametric model for the tumour angiogenesis and antiangiogenesis therapy, Multiscale cancer modeling: In the line of fast simulation and chemotherapy, TUMOR ANGIOGENESIS BASED ANALYTICAL MODEL FOR THE ASSESSMENT OF MCT AND MTD CHEMOTHERAPEUTIC STRATEGIES IN CANCER, Mathematical model of brain tumour with glia-neuron interactions and chemotherapy treatment, How tumour-induced vascular changes alter angiogenesis: insights from a computational model, Capturing the dynamics of a hybrid multiscale cancer model with a continuum model, The triplex vaccine effects in mammary carcinoma: a nonlinear model in tune with SimTriplex, The role of the microvascular tortuosity in tumor transport phenomena, Quantitative impact of immunomodulation versus oncolysis with cytokine-expressing virus therapeutics, Identifying control mechanisms of granuloma formation during \textit{M. tuberculosis} infection using an agent-based model, A multi-scale analysis of drug transport and response for a multi-phase tumour model, Computational model of flow-tissue interactions in intussusceptive angiogenesis, A cellular automata model of tumor-immune system interactions, The influence of soluble fragments of extracellular matrix (ECM) on tumor growth and morphology, A computational model of oxygen transport in skeletal muscle for sprouting and splitting modes of angiogenesis, An optimization based 3D-1D coupling strategy for tissue perfusion and chemical transport during tumor-induced angiogenesis, Mathematical modelling of dynamic adaptive tumour-induced angiogenesis: clinical implications and therapeutic targeting strategies, Vascular network remodeling via vessel cooption, regression and growth in tumors, Metabolic changes during carcinogenesis: potential impact on invasiveness, A mathematical model of the treatment and survival of patients with high-grade brain tumours, Nonlinear simulation of the effect of microenvironment on tumor growth, Cellular automaton simulation examining progenitor hierarchy structure effects on mammary ductal carcinoma \textit{in situ}, Mathematical modeling of the proliferation gradient in multicellular tumor spheroids, What does not kill a tumour may make it stronger: \textit{in silico} insights into chemotherapeutic drug resistance, A 2D mechanistic model of breast ductal carcinoma \textit{in situ} (DCIS) morphology and progression, Three-dimensional multispecies nonlinear tumor growth. II: Tumor invasion and angiogenesis, An immersed boundary framework for modelling the growth of individual cells: an application to the early tumour development, A multilayer grow-or-go model for GBM: effects of invasive cells and anti-angiogenesis on growth, A dynamical model of tumour immunotherapy, A monolithic multiphase porous medium framework for (a-)vascular tumor growth, Maximization of viability time in a mathematical model of cancer therapy, Bayesian inference of agent-based models: a tool for studying kidney branching morphogenesis, Mathematical modelling of the influence of blood rheological properties upon adaptative tu\-mour-induced angiogenesis, An adaptive multigrid algorithm for simulating solid tumor growth using mixture models, Multiple scale homogenisation of nutrient movement and crop growth in partially saturated soil, Spatial avascular growth of tumor in a homogeneous environment, Towards the design of a patient-specific virtual tumour, Coupled modelling of tumour angiogenesis, tumour growth and blood perfusion, Some implications of scale relativity theory in avascular stages of growth of solid tumors in the presence of an immune system response, Computational modeling of tumor-induced angiogenesis, Simulation of tumor response to immunotherapy using a hybrid cellular automata model, Emergent vascular network inhomogeneities and resulting blood flow patterns in a growing tumor, A review of mathematical models for the formation of vascular networks, Multiphase modelling of vascular tumour growth in two spatial dimensions, Stochastic cellular automata model of cell migration, proliferation and differentiation: validation with \textit{in vitro} cultures of muscle satellite cells, Three-dimensional multispecies nonlinear tumor growth. I: Model and numerical method, From the mathematical kinetic theory for active particles on the derivation of hyperbolic macroscopic tissue models, مدل رشد تومور جامد بدون رگ بر اساس چرخه سلولی با استفاده از اتوماتای سلولی, Chemical evolutionary games, Uncertainty quantification on a spatial Markov-chain model for the progression of skin cancer, Mathematical model and its fast numerical method for the tumor growth, Treatment strategies for combining immunostimulatory oncolytic virus therapeutics with dendritic cell injections, Computational modelling of multiscale, multiphase fluid mixtures with application to tumour growth, Simulation of glioblastoma growth using a 3D multispecies tumor model with mass effect, Mathematical modelling of tissue-engineered angiogenesis, Controlled cellular automata, Effects of mutations and immunogenicity on outcomes of anti-cancer therapies for secondary lesions, On the shape of invading population in anisotropic environments, Analysis of individual cell trajectories in lattice-gas cellular automaton models for migrating cell populations

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• Mathematical modelling of flow through vascular networks: implications for tumour-induced angiogenesis and chemotherapy strategies
• Continuous and discrete mathematical models of tumor-induced angiogenesis